热与低氧之间的交叉适应:热适应可提高急性常压低氧下的细胞耐受性和运动表现。
Cross Acclimation between Heat and Hypoxia: Heat Acclimation Improves Cellular Tolerance and Exercise Performance in Acute Normobaric Hypoxia.
作者信息
Lee Ben J, Miller Amanda, James Rob S, Thake Charles D
机构信息
Department for Health, University of BathBath, UK; Centre for Applied Biological and Exercise Sciences, Coventry UniversityCoventry, UK.
Centre for Applied Biological and Exercise Sciences, Coventry University Coventry, UK.
出版信息
Front Physiol. 2016 Mar 8;7:78. doi: 10.3389/fphys.2016.00078. eCollection 2016.
BACKGROUND
The potential for cross acclimation between environmental stressors is not well understood. Thus, the aim of this investigation was to determine the effect of fixed-workload heat or hypoxic acclimation on cellular, physiological, and performance responses during post acclimation hypoxic exercise in humans.
METHOD
Twenty-one males (age 22 ± 5 years; stature 1.76 ± 0.07 m; mass 71.8 ± 7.9 kg; [Formula: see text]O2 peak 51 ± 7 mL(.)kg(-1.)min(-1)) completed a cycling hypoxic stress test (HST) and self-paced 16.1 km time trial (TT) before (HST1, TT1), and after (HST2, TT2) a series of 10 daily 60 min training sessions (50% N [Formula: see text]O2 peak) in control (CON, n = 7; 18°C, 35% RH), hypoxic (HYP, n = 7; fraction of inspired oxygen = 0.14, 18°C, 35% RH), or hot (HOT, n = 7; 40°C, 25% RH) conditions.
RESULTS
TT performance in hypoxia was improved following both acclimation treatments, HYP (-3:16 ± 3:10 min:s; p = 0.0006) and HOT (-2:02 ± 1:02 min:s; p = 0.005), but unchanged after CON (+0:31 ± 1:42 min:s). Resting monocyte heat shock protein 72 (mHSP72) increased prior to HST2 in HOT (62 ± 46%) and HYP (58 ± 52%), but was unchanged after CON (9 ± 46%), leading to an attenuated mHSP72 response to hypoxic exercise in HOT and HYP HST2 compared to HST1 (p < 0.01). Changes in extracellular hypoxia-inducible factor 1-α followed a similar pattern to those of mHSP72. Physiological strain index (PSI) was attenuated in HOT (HST1 = 4.12 ± 0.58, HST2 = 3.60 ± 0.42; p = 0.007) as a result of a reduced HR (HST1 = 140 ± 14 b.min(-1); HST2 131 ± 9 b.min(-1) p = 0.0006) and Trectal (HST1 = 37.55 ± 0.18°C; HST2 37.45 ± 0.14°C; p = 0.018) during exercise. Whereas PSI did not change in HYP (HST1 = 4.82 ± 0.64, HST2 4.83 ± 0.63).
CONCLUSION
Heat acclimation improved cellular and systemic physiological tolerance to steady state exercise in moderate hypoxia. Additionally we show, for the first time, that heat acclimation improved cycling time trial performance to a magnitude similar to that achieved by hypoxic acclimation.
背景
环境应激源之间的交叉适应潜力尚未得到充分理解。因此,本研究的目的是确定固定工作量的热适应或低氧适应对人体适应后低氧运动期间细胞、生理和运动表现反应的影响。
方法
21名男性(年龄22±5岁;身高1.76±0.07米;体重71.8±7.9千克;[公式:见原文]氧峰值51±7毫升·千克⁻¹·分钟⁻¹)在进行一系列每天10次、每次60分钟的训练课程(50%[公式:见原文]氧峰值)之前(HST1、TT1)和之后(HST2、TT2),分别在对照(CON,n = 7;18°C,35%相对湿度)、低氧(HYP,n = 7;吸入氧分数 = 0.14,18°C,35%相对湿度)或热环境(HOT,n = 7;40°C,25%相对湿度)下完成了一次骑行低氧应激测试(HST)和一次自定节奏的16.1公里计时赛(TT)。
结果
两种适应处理后,低氧环境下的TT表现均有所改善,HYP组(-3:16±3:10分钟:秒;p = 0.0006)和HOT组(-2:02±1:02分钟:秒;p = 0.005),而CON组后无变化(+0:31±1:42分钟:秒)。在HST2之前,HOT组(62±46%)和HYP组(58±52%)的静息单核细胞热休克蛋白72(mHSP72)增加,但CON组后无变化(9±46%),导致与HST1相比,HOT组和HYP组在HST2时对低氧运动的mHSP72反应减弱(p < 0.01)。细胞外缺氧诱导因子1-α的变化与mHSP72的变化模式相似。由于运动期间心率降低(HST1 = 140±14次·分钟⁻¹;HST2 131±9次·分钟⁻¹,p = 0.0006)和直肠温度降低(HST1 = 37.55±0.18°C;HST2 37.45±0.14°C;p = 0.018),HOT组的生理应激指数(PSI)降低(HST1 = 4.12±0.58,HST2 = 3.60±0.42;p = 0.007)。而HYP组的PSI无变化(HST1 = 4.82±0.64,HST2 4.83±0.63)。
结论
热适应提高了细胞和全身对中度低氧稳态运动的生理耐受性。此外,我们首次表明,热适应改善骑行计时赛表现的程度与低氧适应相似。
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